Issue 102, 2014

Central C–C bonding increases optical and chemical stability of NIR fluorophores

Abstract

Functional near-infrared (NIR) fluorophores have played a major role in the recent advances in bioimaging. However, the optical and physicochemical stabilities of NIR fluorophores in the biological and physiological environment are still a challenge. Especially, the ether linkage on the meso carbon of heptamethine core is fragile when exposed to serum proteins or other amine-rich biomolecules. To solve such a structural limitation, a rigid carbon–carbon bond was installed onto the framework of ether-linked NIR fluorophores through Suzuki coupling. The robust fluorophores replaced as ZW800-1C and ZW800-3C displayed enhanced optical and chemical stability in various solvents and a 100% warm serum environment (>99%, 24 h). The biodistribution and clearance of C–C coupled ZW800 compounds were almost identical to the previously developed oxygen-substituted ZW800 compounds. When conjugated with a small molecule ligand, ZW800-1C maintained the identical stable form in warm serum (>98%, 24 h), while ZW800-1A hydrolyzed quickly after 4 h incubation (34%, 24 h).

Graphical abstract: Central C–C bonding increases optical and chemical stability of NIR fluorophores

Supplementary files

Article information

Article type
Communication
Submitted
25 Sep 2014
Accepted
31 Oct 2014
First published
31 Oct 2014

RSC Adv., 2014,4, 58762-58768

Author version available

Central C–C bonding increases optical and chemical stability of NIR fluorophores

H. Hyun, E. A. Owens, L. Narayana, H. Wada, J. Gravier, K. Bao, J. V. Frangioni, H. S. Choi and M. Henary, RSC Adv., 2014, 4, 58762 DOI: 10.1039/C4RA11225C

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